The scientist’s investigation covers issues in Carbon nanotube, Nanotechnology, Composite material, Chemical engineering and Metallurgy. He combines subjects such as Composite number, Current collector and Electrical conductor with his study of Carbon nanotube. His Nanotechnology research includes elements of Creep, Transmittance, Electrical resistance and conductance and Scanning electron microscope.
His research combines Low voltage and Composite material. The study incorporates disciplines such as Sulfur, Polysulfide, Cathode, Lithium and Electrochemistry in addition to Chemical engineering. His study explores the link between Metallurgy and topics such as FOIL method that cross with problems in Aluminium and Welding.
Jiaping Wang focuses on Carbon nanotube, Composite material, Chemical engineering, Layer and Nanotechnology. His Carbon nanotube study combines topics from a wide range of disciplines, such as Lithium-ion battery, Lithium, Optoelectronics, Cathode and Composite number. Jiaping Wang usually deals with Composite material and limits it to topics linked to Carbon and Nano- and Raw material.
His work deals with themes such as Battery, Lithium–sulfur battery, Oxide and Separator, which intersect with Chemical engineering. His Layer study incorporates themes from Conductor and Capacitor. His work carried out in the field of Nanotechnology brings together such families of science as Electrochemistry and Energy storage.
His primary scientific interests are in Carbon nanotube, Chemical engineering, Composite material, Layer and Nanoparticle. His Carbon nanotube research is multidisciplinary, incorporating perspectives in Oxide, Battery, Lithium-ion battery, Lithium and Composite number. Within one scientific family, Jiaping Wang focuses on topics pertaining to Anode under Battery, and may sometimes address concerns connected to Cathode.
His biological study spans a wide range of topics, including Electrochemistry and Nanotechnology. His Chemical engineering research integrates issues from Battery electrode, Lithium–sulfur battery, Electrolyte, Separator and Adsorption. His Composite material research focuses on Carbon and how it relates to Nano-.
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Phase change memory
Peng Liu;Yang Wu;Qun-Qing Li;Kai-Li Jiang.
Superaligned Carbon Nanotube Arrays, Films, and Yarns: A Road to Applications
Kaili Jiang;Jiaping Wang;Qunqing Li;Liang Liu.
Advanced Materials (2011)
Conformal Fe3O4 sheath on aligned carbon nanotube scaffolds as high-performance anodes for lithium ion batteries.
Yang Wu;Yang Wei;Jiaping Wang;Kaili Jiang.
Nano Letters (2013)
Carbon nanotube yarns with high tensile strength made by a twisting and shrinking method
Kai Liu;Yinghui Sun;Ruifeng Zhou;Hanyu Zhu.
Binder-free LiCoO2/carbon nanotube cathodes for high-performance lithium ion batteries.
Shu Luo;Ke Wang;Jiaping Wang;Kaili Jiang.
Advanced Materials (2012)
Ultrathin MnO2/Graphene Oxide/Carbon Nanotube Interlayer as Efficient Polysulfide‐Trapping Shield for High‐Performance Li–S Batteries
Weibang Kong;Lingjia Yan;Yufeng Luo;Datao Wang.
Advanced Functional Materials (2017)
Scratch-resistant, highly conductive, and high-strength carbon nanotube-based composite yarns.
Kai Liu;Yinghui Sun;Xiaoyang Lin;Ruifeng Zhou.
ACS Nano (2010)
Super‐Aligned Carbon Nanotube Films as Current Collectors for Lightweight and Flexible Lithium Ion Batteries
Ke Wang;Shu Luo;Yang Wu;Xingfeng He.
Advanced Functional Materials (2013)
Sulfur nanocrystals confined in carbon nanotube network as a binder-free electrode for high-performance lithium sulfur batteries.
Li Sun;Mengya Li;Ying Jiang;Weibang Kong.
Nano Letters (2014)
Joining of stainless-steel specimens with nanostructured Al/Ni foils
J. Wang;E. Besnoin;A. Duckham;S. J. Spey.
Journal of Applied Physics (2004)
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